Ball detection viewer

ABSTRACT

This patent describes a device that enhances the perception of a stationary white object such as a golf ball to improve the performance of the user in locating such objects during a round of golf. The device uses an optical filter that attenuates light transmission for light of wavelengths longer than approximately 500 μm (from the trees and grass) and transmits light having shorter wavelengths (from the ball). The filter is worn in an eyeglass type holder. These glasses are inexpensive, light and portable. They assist the user in avoiding costs, penalty strokes, and wasted time due to lost balls. To improve golf course efficiency through the reduction of round times.

BACKGROUND OF THE INVENTION

[0001] This device relates to an optical device to aid in the finding of white or light coloured golf balls lost to the view of the player. This device can also be used to locate other similar coloured objects. The most likely embodiment of this invention will be in the form of conventional eyeglasses.

BRIEF SUMMARY OF THE INVENTION

[0002] This device enhances the perception of a stationary white object such as a golf ball to improve the performance of the user in locating such objects during play. The device uses an optical filter that attenuates light transmission for light of wavelengths longer than approximately 500 μm and transmits light having shorter wavelengths. The filter is worn in an eyeglass type holder. These glasses are inexpensive, light and portable. They assist the user in avoiding costs, penalty strokes, and wasted time due to lost balls. To improve golf course efficiency through the reduction of round times.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0003]FIG. 1 is a graphical representation of the invention. The light reflected from the foliage [1], tree trunks [2], undergrowth [3], grass [4], dirt or gravel [5] and the stationary object to be located [6] are represented by arrows. The viewing apparatus [7] blocks most of the light emitted from the foliage [1], tree trunks [2], undergrowth [3], grass [4], dirt or gravel [5] (indicated by the arrows stopping at the viewing apparatus). The viewing apparatus [7] allows the reflected light from the stationary object to be located [6] to pass through (indicated by the arrow passing through the viewing apparatus) and impact on the sensing device [8], which is usually an eye.

[0004]FIG. 2 shows the filter transmission behaviour with relative transmission in percent plotted against the wavelength of the light in nanometers. .

DETAILED DESCRIPTION OF THE INVENTION

[0005] Technologies have been previously proposed to assist the golf player with finding or locating golf balls on the course or in the rough. However, none of the previous devices have been either as simple or as portable. As well, the technologies have had a high cost relative to the corresponding rate of success.

[0006] Some ideas that have been proposed are the use of a fluorescent covering on the ball and the use of ultraviolet light to create a glowing ball. Others have proposed using radio frequencies and metal plates inside the golf ball to reflect the radio waves in a manner similar to radar systems. And some have proposed emitters of various sorts to be installed in the core of the ball.

[0007] The invention described here offers a relatively inexpensive, light, portable device that can be used by any player and will work under a wide range of weather and foliage conditions. Such a device as described below has not been proposed previously. Since eyeglasses are a common article of use, carrying a pair for this specific application would not likely be regarded as burdensome.

[0008] This device will provide a benefit over the un-aided eye or un-aided visual perception. This benefits the play of any game in that it reduces the likelihood of loosing balls and reduces time to recover stray balls. In the game of golf, it reduces the players' chance of incurring penalty strokes and reduces overall round time for the golf course.

[0009] This invention could be applied, without modification, to finding any light coloured object in a field of vegetation or in a background that reflects a different spectrum of light.

[0010] The process requires selection of a filter for the visual light spectrum that transmits light in the blue colour range and attenuates the transmission of light with wavelengths longer than 500 micrometers (500 μm). This attenuates colours most commonly found in vegetation, i.e. greens, yellows, oranges and reds; and permits the transmission of blue and violet light which are not commonly reflected by vegetation but which are reflected to a much greater extent by white objects.

[0011] The general characteristics of the filter are illustrated in FIG. 2. The degree of transmission above approximately 500 μm should be less than 15%, and the degree of transmission at wavelengths shorter than 500 μm should be more than 30%. The exact transmission values need to be selected so that the overall transmission of light is sufficient to allow the user to see where they are going and to allow the blue light component from a white or light coloured object to be transmitted, but not excessive such that the background vegetation, earth and general terrain are completely obscured.

[0012] The filter may be manufactured by a variety of industrial techniques. A good example is the plastic filter by Rosco Corporation called Roscolux #85 “Deep blue”.

[0013] The filter would normally be mounted into a standard eyeglass frame of any design, although the filter could be mounted in many different ways such as goggles, snap on shades, or hand held eye-piece. The purpose of the mounting is to provide an eyepiece that covers most of the field of vision of the user so that the majority of the light received by the eyes is that which has passed through the filters. As well, the eyepiece and holder will minimize light reflected on the inside surface of the filter. The assembly will need to be durable for active use. A graphical representation of the use of the invention is presented in FIG. 1.

[0014] The filter and mounting provides a light, compact and portable tool for the aid of a sports person. The device will be used when a search is needed and can be stored when not in use as is done for commercial sun protective glasses.

[0015] Ways is which this device may be used apply to any applications where there is a need to find or locate stationary white objects. This invention could be applied, without modification, to finding any light coloured object in a field of vegetation or in a background that reflects a different spectrum of light. 

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:
 1. A viewing apparatus that enhances the visibility of an object by attenuating the visible light reflected from the environment surrounding the object.
 2. A viewing apparatus that aids the user in locating a stationary object that reflects a different pattern of light than the environment surrounding the object by attenuating the visible light reflected from the environment surrounding the object.
 3. A viewing apparatus as claimed in claim 2, where the viewing apparatus is an optical filter.
 4. A viewing apparatus as claimed in claim 2 and claim 3 where the stationary object to be located is white or light coloured and the background consists of any or a combination of the following; foliage, tree trunks, undergrowth, grass, dirt or gravel.
 5. A viewing apparatus consisting of an optical filter that attenuates light with a transmission less than 15% for wavelengths of light greater than approximately 500 μm, and has a higher transmission of light having any wavelength less than approximately 500 μm whose function is to locate a stationary white or light coloured object in a background consisting of any or a combination of the following; foliage, tree trunks, undergrowth, grass, dirt or gravel.
 6. A viewing apparatus as claimed in claim 4 or in claim 5 where the filter is mounted onto or impregnated into a plastic or glass lens suitable for a set of eye glasses or another apparatus such as goggles, a face shield, a hand-held screen or an apparatus which clips onto an existing pair of eyeglasses which places the filter between the detector (usually an eye) and the stationary object to be located. 